©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 5 - 5 Audit Sampling for Tests of Details of Balances Chapter 17.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 2 Learning Objective 1 Differentiate audit sampling for tests of details of balances and for tests of controls and substantive tests of transactions.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 3 Tests of Details of Balances and Controls, and Substantive Tests of Transactions Differences among tests Transactions Controls Balances Effectiveness of controls Monetary correctness of transactions Existence of material misstatements Type of Test What It Measures

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 5 Nonstatistical Sampling 14 steps required in audit sampling for tests of details of balances. Steps parallel the sampling approach used to test controls and/or test transactions. There are a few differences because of the different objectives of the tests.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 6 Comparison of the 14 Steps 2. Decide whether audit sampling applies. 2. Decide whether audit sampling applies. 3. Define a misstatement.3. Define attributes and exception conditions. 4. Define the population. 5. Define the sampling unit. Audit sampling for tests of details of balances Audit sampling for tests of controls and substantive tests of transactions 1. State the objectives of the audit test. 1. State the objectives of the audit test.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 7 Comparison of the 14 Steps 7. Specify acceptable risk of incorrect acceptance. 7. Specify acceptable risk of assessing control risk too low. 8. Estimate misstatements in the population. 8. Estimate the population exception rate. 9. Determine the initial sample size. 9. Determine the initial sample size. 6. Specify tolerable misstatement. 6. Specify the tolerable exception rate. Audit sampling for tests of details of balances Audit sampling for tests of controls and substantive tests of transactions

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 8 Comparison of the 14 Steps 10. Select the sample. 11. Perform the audit procedures. 11. Perform the audit procedures. 12. Generalize from the sample to the population. 12. Generalize from the sample to the population. 13. Analyze the misstatements.13. Analyze the exceptions. 14. Decide the acceptability of the population. 14. Decide the acceptability of the population. Audit sampling for tests of details of balances Audit sampling for tests of controls and substantive tests of transactions

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 9 Action When a Population Is Rejected  Take no action until tests of other audit areas are completed  Perform expanded audit tests in specific areas  Increase the sample size  Adjust the account balance  Request the client to correct the population  Refuse to give an unqualified opinion

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 12 Differences between MUS and Nonstatistical Sampling The definition of the sampling unit is an individual dollar. The population size is the recorded dollar population. Preliminary judgment of materiality is used for each account instead of tolerable misstatement.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 13 Differences between MUS and Nonstatistical Sampling Sample size is determined using a statistical formula. A formal decision rule is used for deciding the acceptability of the population. Sample selection is done using probability proportional to size sample selection (PPS).

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 14 Differences between MUS and Nonstatistical Sampling The auditor generalizes from the sample to the population using MUS techniques. Attribute sampling tables are used to calculate results Attribute results must be converted to dollars Make an assumption about the % of misstatement for each item misstated Determine misstatement bounds.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 15 Generalizing from the Sample to the Population Population is $1,200,000 Sample size is 100 customer accounts Overstatement amounts equal 100%. Understatement amounts equal 100%. Misstatement bounds at a 5% ARIA are: Upper misstatement bound = $1,200,000 × 3% × 100% = $36,000 Assumption 1: Lower misstatement bound = $1,200,000 × 3% × 100% = $36,000

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 16 Generalizing from the Sample to the Population 1.All amounts have to be overstatements. 2.All population items misstated have to be 100% misstated. The following two conditions both have to exist before the $36,000 correctly reflects the true overstatement amount:

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 17 Generalizing from the Sample to the Population Overstatement amounts equal 10%. Understatement amounts equal 10%. Misstatement bounds at a 5% ARIA are: Upper misstatement bound = $1,200,000 × 3% × 10% = $3,600 Assumption 2: Lower misstatement bound = $1,200,000 × 3% × 10% = $3,600

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 18 Generalizing from the Sample to the Population Overstatement amounts equal 20%. Understatement amounts equal 200%. Misstatement bounds at a 5% ARIA are: Upper misstatement bound = $1,200,000 × 3% × 20% = $7,200 Assumption 3: Lower misstatement bound = $1,200,000 × 3% × 200% = $72,000

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 19 Appropriate Percent of Misstatement Assumption The appropriate assumption for the overall percent of misstatement in those population items containing a misstatement is an auditor’s decision.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 20 Generalizing When Misstatements Are Found 1. Overstatement and understatement amounts are dealt with separately and then combined. 2. A different misstatement assumption is made for each misstatement, including the zero misstatements.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 21 Generalizing When Misstatements Are Found 3. The auditor must deal with layers of the computed upper exception rate (CUER) from the attributes sampling table. 4. Misstatement assumptions must be associated with each layer.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 23 Determining Sample Size Using MUS  Materiality  Assumption of the average percent of misstatement for population items that contain a misstatement  Acceptable risk of incorrect acceptance  Recorded population value

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 24 Determining Sample Size Using MUS  Estimate of the population exception rate  Relationship of the audit risk model to sample size for MUS PDR = AAR ÷ (IR × CR)

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 25 Advantages of Using MUS  MUS increases the likelihood of selecting high-dollar items  MUS often reduces the cost of audit testing  Easy to apply  MUS provides a statistical conclusion

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 28 Sampling Distributions 1.The mean value of all the sample means is equal to the population mean ( ). Three things shape the results of the experiment of taking a large number of samples from a known population: X

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 29 Sampling Distributions 2.The shape of the frequency distribution of the sample means is that of a normal distribution (curve), as long as the sample size is sufficiently large, regardless of the distribution of the population. 3.The percentage of sample means between any two values of the sampling distribution is measurable.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 30 Sampling Distribution for a Population Distribution Sampling distribution – Normal Population distribution – Skewed Mean Value of in dollars x Frequency of values in percent

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 32 Stratified Statistical Methods  All of the elements of the population are divided into two or more subpopulations  Each subpopulation is independently tested  The calculations are then made for each stratum and then combined into one overall population estimate

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 33 Sampling Risks (ARIA and ARIR) Conclude that the population is materially misstated Conclude that the population is not materially misstated Correct conclusion – no risk Incorrect conclusion – risk is ARIA Incorrect conclusion – risk is ARIR Correct conclusion – no risk Actual audit decision Materially misstated Not materially misstated Actual state of the population

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 35 Plan the Sample and Calculate the Sample Size  State the objectives of the audit test  Decide whether audit sampling applies  Define misstatement conditions  Define the population  Define the sampling unit  Specify tolerable misstatement

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 37 Estimate Misstatement in the Population 1.Estimate an expected point estimate 2.Make an advance population standard deviation estimate – variability of the population.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 38 2 Calculate the Initial Sample Size n= initial sample size SD*= advance estimate of the standard deviation Z A = confidence coefficient for ARIA Z R = confidence coefficient for ARIR N= population size TM= tolerable misstatement for the population (materially) E*= estimated point estimate of the population misstatement SD*(Z A + Z R )N (TM – E *) n =n =n =n = where:

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 39 Select the Sample and Perform the Procedures The auditor must use one of the probabilistic sample selection methods to select the items for confirmation. The auditor must use care in confirming and performing alternative procedures.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 40 Evaluate the Results 1. Compute the point estimate of the total misstatement 2. Compute an estimate of the population standard deviation 3. Compute the precision interval 4. Compute the confidence limits Generalize from the sample to the population

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 41 Effect of Changing Each Factor Increase ARIA Increase the point estimate of the misstatements Increase the standard dev. Increase the sample size Type of change Effect on the computed precision interval

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 17- 42 Analyze the Misstatements The auditor must evaluate misstatements to determine the cause of each misstatement and decide whether modification of the audit risk model is needed.

©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 5 - 5 Audit Sampling for Tests of Details of Balances Chapter 17.

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©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 5 - 5 Audit Sampling for Tests of Details of Balances Chapter 17.

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Presentation on theme: "©2012 Pearson Education, Auditing 14/e, Arens/Elder/Beasley 5 - 5 Audit Sampling for Tests of Details of Balances Chapter 17."— Presentation transcript:

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